Plate Tectonics, Earthquakes, and Volcanoes - PowerPoint PPT Presentation

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Plate Tectonics, Earthquakes, and Volcanoes

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Section 17.1 and 17.2 Plate Tectonics, Earthquakes, and Volcanoes Background History of the Earth This chapter is based on the idea that Earth is about 4.5 ... – PowerPoint PPT presentation

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Title: Plate Tectonics, Earthquakes, and Volcanoes


1
Section 17.1 and 17.2
  • Plate Tectonics, Earthquakes, and Volcanoes

2
Background History of the Earth
  • This chapter is based on the idea that Earth is
    about 4.5 billion years ago.
  • Began as a ball of small particles pulled
    together by gravity. As pressure built, the
    material heated up.

3
  • Possible explanations for the heat
  • - collisions of particles
  • - compression of the interior of the planet
  • - radioactive decay of some natural elements
  • The Earth began to cool and the heavier (more
    dense) elements sank while the lighter (less
    dense) materials floated to the surface.

4
17.1 Earths Interior and Plate Tectonics
  • The Earths Interior is divided into 4 basic
    layers

5
  • Crust
  • - Outermost and thinnest layer of Earth 4 -
    40 km thick
  • - Made of hard, solid rock
  • - Can be either continental crust (thicker) or
    oceanic crust (thinner)
  • - The crust (and part of the mantle) is divided
    into 7 large plates

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  • Mantle
  • - Thickest layer of Earth 2900 km thick
  • - 80 of Earths volume
  • - Scientists have never drilled to the mantle,
    so they can only guess what it is made of based
    on what we learn from earthquakes and volcanoes.
  • - outer mantle is made mostly of solid rock
  • - inner mantle is made of hot and melting rock
  • - rich in iron, magnesium, silicon, and oxygen

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  • Outer Core
  • - surrounds the inner core with liquid metal
    boiling under pressure nickel and iron
  • Inner Core
  • - made of solid metal nickel and iron
  • Temperatures increase as one gets closer to the
    center of the earth.

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  • Plate Tectonics the theory that the Earths
    surface is made up of large moving plates.
  • Alfred Wegner studied world maps and hypothesized
    about Pangea a supercontinent that he believed
    existed in history and split into the current
    continents.

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  • Continental drift the mechanism for the
    movement of continents caused by interactions
    between
  • Lithosphere
  • - the earths stiff outer shell made of the
    crust and hard upper mantle
  • - divided into 7 large pieces and several
    smaller pieces called tectonic plates.

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  • Asthenosphere
  • - the liquid inner mantle which is in constant
    slow movement because of the heating from the
    center of the earth
  • - convection currents result from the liquid
    rock being heated near the core and rising toward
    the outer mantle then cooling

16
  • Interaction currents in asthenosphere push the
    lithosphere plates like waves push around floats

17
Evidence supporting continental drift
  • The shapes match
  • Ex South America fits with Africa like puzzle
    pieces
  • The plants and animals match
  • Ex identical fossils along the coastal parts of
    Africa and South America
  • The rocks match
  • Ex the same type of broad belts of rocks in
    Africa and South America these bands have
    alternating magnetic polarities

18
Shapes match
19
Plants and Animals Match
20
  • The ice marks match
  • Ex Glacial striations on rocks show that
    glaciers moved from Africa onto South America
    without drifting away in the Atlantic Ocean
  • The current positions dont match
  • Ex coal that is mined in Pennsylvania was
    actually formed from tropical plant life that
    lives near the equator.

21
Basic Types of Plate movement
  • Plate movement occurs at faults, which are any
    cracks in the earth where movement occurs. There
    is are forces at each fault (convection currents)
    that cause movement in a certain direction. We
    use the direction to categorize the fault into a
    boundary. Plates move about 2 cm to 10 cm a year.

22
  • Three types of boundaries divergent, convergent,
    transform.
  • Three types of faults normal, reverse, strike
    slip
  • Three types of forces tension, compression, shear

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Divergent Boundaries
  • Two plates are moving apart leaving gaps the
    gaps are filled with magma rising from the mantle
    which cools into new crust

25
  • Occur at normal faults
  • Caused by tension force

26
  • Movement results in volcanoes and oceanic rift
    valleys surrounded by high mountains.
  • - Mid-Atlantic Ridge a submerged mountain
    range under the Atlantic Ocean

27
Mid-Atlantic Ridge
28
Iceland on a Divergent Boundary
29
Convergent Boundaries
  • Two plates are moving towards each other

30
  • Occur at reverse faults
  • Caused by compression forces

31
  • Movement results in subduction zones which create
    ocean trenches, mountains, and volcanoes.
  • - subduction when one plate dives beneath
    another the lower plate is often melted by the
    heat of the asthenosphere
  • - Andes Mountains in South America where a
    continental plate and an oceanic plate meet
  • - Mariana Trench in Pacific Ocean near Japan
    where two oceanic plates meet is more than 11km
    deep (6.8 mi)
  • - Himalayan mountains are due to the collision
    of two continental plates

32
Transform Boundaries
  • Two plates are moving horizontally past each
    other like two cars on a road going in opposite
    directions

33
  • Occur at strike slip faults
  • Caused by shear forces

34
  • Movement results in earthquakes
  • - San Andreas fault runs from Mexico through
    California

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17.2 Earthquakes and Volcanoes
  • What are Earthquakes?
  • Vibrations from rocks sliding past one another
  • Occur mostly at plate boundaries all three types
    of the boundaries.

37
  • What happens?
  • As plates move, pressure builds and the rock
    eventually breaks at the focus. This releases
    seismic waves in all directions around the focus.

38
  • There are three types of energy waves
  • - longitudinal waves (primary waves or P waves)
    move like a compressing spring or a slinky. They
    are the fastest and first waves that run through
    rock

39
  • - transverse waves (secondary waves or S waves)
    move like a shaking rope and are slower than P
    waves

40
  • - surface waves only move across the Earths
    surface in a rolling motion cause more
    destruction

41
  • The epicenter is the point on the earths surface
    directly above the focus.

42
Seismology the study of earthquakes
  • Seismographs are machines that record info about
    the three types of waves sent out by an
    earthquake.
  • Measure ground motion in three directions (North
    to South, East to West, up and down) using
    inertia.
  • 1000 seismograph stations across the world three
    are needed to triangulate an earthquakes
    movement.

43
Richter Scale
  • a measure of the energy released at the focus of
    an earthquake
  • the magnitude is recorded from 2.0 to 10

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Volcanoes
  • Any opening, or vent, through which magma reaches
    the Earths surface.

46
  • Magma molten rock under the surface of the
    earth
  • Lava magma has reached the surface
  • Tephra materials of all types that erupt from a
    vent ash, cinder
  • The makeup of the magma and type of eruption
    determines the type of volcano

47
Shield Volcanoes
  • Magma is rich in iron and magnesium which flows
    easily and far
  • Several mild eruptions
  • Creates many layers of lava into a gently sloping
    mountain
  • Ex Mauna Lao in Hawaii

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Composite Volcanoes
  • Magma is rich in silica thicker filled with gas
    bubbles
  • Gases cause alternating lava flows then an
    explosion of cinders and ash
  • Creates alternating layers of ash, cinders, and
    lava
  • Ex Mount St. Helens
  • Seamount volcanoes are found underwater and
    resemble composites

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51
Cinder Cones
  • Smallest and most abundant volcanoes
  • Large amounts of gas in the magma which causes
    violent eruptions
  • Made of layers of cinders
  • Tend to be active for a short time than become
    dormant

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Volcanoes occur mainly at plate boundaries
  • Convergent as plates sink under during
    subduction, the crust is melted and magma rises
    to the surface
  • - Ring of Fire circle
  • of volcanoes around
  • the Pacific Ocean

54
  • Divergent magma rises between two divergent
    plates
  • - Iceland is a volcanic island that is
    continually growing at its center

55
Volcanoes occur at hot spots
  • Mantle plumes rise from deep in the mantle and
    can break through weaker spots of the oceanic
    crusts called hot spots.
  • Lava and ash build up where magma broke through
    can build up to an island like the Hawaiian
    Islands which form a trail or island chain

56
Hawaiian Islands Hot spot
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